[[Category:FIXME|this reads like it's an attack, not a vulnerability]]

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Cross site Scripting (XSS) attacks are a type of injection problem, in which malicious scripts are injected into otherwise benign and trusted web sites. Cross site scripting flaws are the most prevalent flaw in web applications today. Cross site scripting attacks occur when an attacker uses a web application to send malicious code, generally in the form of a browser side script, to a different end user. Flaws that allow these attacks to succeed are quite widespread and occur anywhere a web application uses input from a user in the output it generates without validating or encoding it.

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Cross-site scripting (XSS) attacks occur when an attacker uses a web application to send malicious code, generally in the form of a browser side script, to a different end user. Flaws that allow these attacks to succeed are quite widespread and occur anywhere a web application uses input from a user in the output it generates without validating or encoding it.

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An attacker can use XSS to send a malicious script to an unsuspecting user. The end user’s browser has no way to know that the script should not be trusted, and will execute the script. Because it thinks the script came from a trusted source, the malicious script can access any cookies, session tokens, or other sensitive information retained by your browser and used with that site. These scripts can even rewrite the content of the HTML page.

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XSS attacks can generally be categorized into two categories: stored and reflected. Stored attacks are those where the injected code is permanently stored on the target servers, such as in a database, in a message forum, visitor log, comment field, etc. The victim then retrieves the malicious script from the server when it requests the stored information. Reflected attacks are those where the injected code is reflected off the web server, such as in an error message, search result, or any other response that includes some or all of the input sent to the server as part of the request. Reflected attacks are delivered to victims via another route, such as in an e-mail message, or on some other web server. When a user is tricked into clicking on a malicious link or submitting a specially crafted form, the injected code travels to the vulnerable web server, which reflects the attack back to the user’s browser. The browser then executes the code because it came from a ‘trusted’ server.

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The consequence of an XSS attack is the same regardless of whether it is stored or reflected. The difference is in how the payload arrives at the server. Do not be fooled into thinking that a “read only” or “brochureware” site is not vulnerable to serious reflected XSS attacks. XSS can cause a variety of problems for the end user that range in severity from an annoyance to complete account compromise. The most severe XSS attacks involve disclosure of the user’s session cookie, allowing an attacker to hijack the user’s session and take over the account. Other damaging attacks include the disclosure of end user files, installation of Trojan horse programs, redirecting the user to some other page or site, and modifying presentation of content. An XSS vulnerability allowing an attacker to modify a press release or news item could affect a company’s stock price or lessen consumer confidence. An XSS vulnerability on a pharmaceutical site could allow an attacker to modify dosage information resulting in an overdose.

Attackers frequently use a variety of methods to encode the malicious portion of the tag, such as using Unicode, so the request is less suspicious looking to the user. There are hundreds of variants of these attacks, including versions that do not even require any < > symbols. For this reason, attempting to “filter out” these scripts is not likely to succeed. Instead we recommend validating input against a rigorous positive specification of what is expected. XSS attacks usually come in the form of embedded JavaScript. However, any embedded active content is a potential source of danger, including: ActiveX (OLE), VBscript, Shockwave, Flash and more.

Attackers frequently use a variety of methods to encode the malicious portion of the tag, such as using Unicode, so the request is less suspicious looking to the user. There are hundreds of variants of these attacks, including versions that do not even require any < > symbols. For this reason, attempting to “filter out” these scripts is not likely to succeed. Instead we recommend validating input against a rigorous positive specification of what is expected. XSS attacks usually come in the form of embedded JavaScript. However, any embedded active content is a potential source of danger, including: ActiveX (OLE), VBscript, Shockwave, Flash and more.

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===Environments Affected===

===Environments Affected===

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All web servers, application servers, and web application environments are susceptible to cross site scripting.

All web servers, application servers, and web application environments are susceptible to cross site scripting.

===How to Determine If You Are Vulnerable===

===How to Determine If You Are Vulnerable===

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XSS flaws can be difficult to identify and remove from a web application. The best way to find flaws is to perform a security review of the code and search for all places where input from an HTTP request could possibly make its way into the HTML output. Note that a variety of different HTML tags can be used to transmit a malicious JavaScript. Nessus, Nikto, and some other available tools can help scan a website for these flaws, but can only scratch the surface. If one part of a website is vulnerable, there is a high likelihood that there are other problems as well.

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There are three known types of cross site scripting: [[Cross-site_Scripting_(XSS)#Reflected_XSS_Attacks | reflected]], [[Cross-site_Scripting_(XSS)#Stored_XSS_Attacks | stored]], and [[DOM_Based_XSS | DOM injection]]. Reflected XSS is the easiest to exploit – a page will reflect user supplied data directly back to the user:

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===How to Protect Yourself===

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echo $_REQUEST['userinput'];

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The best way to protect a web application from XSS attacks is ensure that your application performs validation of all headers, cookies, query strings, form fields, and hidden fields (i.e., all parameters) against a rigorous specification of what should be allowed. The validation should not attempt to identify active content and remove, filter, or sanitize it. There are too many types of active content and too many ways of encoding it to get around filters for such content. We strongly recommend a ‘positive’ security policy that specifies what is allowed. ‘Negative’ or attack signature based policies are difficult to maintain and are likely to be incomplete.

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Encoding user supplied output can also defeat XSS vulnerabilities by preventing inserted scripts from being transmitted to users in an executable form. Applications can gain significant protection from javascript based attacks by converting the following characters in all generated output to the appropriate HTML entity encoding:

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Stored XSS takes hostile data, stores it in a file, a database, or other back end system, and then at a later stage, displays the data to the user, unfiltered. This is extremely dangerous in systems such as CMS, blogs, or forums, where a large number of users will see input from other individuals.

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{| border="1"

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With DOM based XSS attacks, the site’s JavaScript code and variables are manipulated rather than HTML elements. Alternatively, attacks can be a blend or hybrid of all three types. The danger with cross site scripting is not the type of attack, but that it is possible.

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|+ HTML Entities

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! Character !! Encoding

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| < || &amp;lt; or &amp;#60;

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| > || &amp;gt; or &amp;#62;

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|-

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| & || &amp;amp; or &amp;#38;

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|-

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| " || &amp;quot; or &amp;#34;

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|-

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| ' || &amp;apos; or &amp;#39;

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|-

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| ( || &amp;#40;

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|-

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| ) || &amp;#41;

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|-

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| # || &amp;#35;

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|-

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| % || &amp;#37;

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|-

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| ; || &amp;#59;

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|-

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| + || &amp;#43;

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| - || &amp;#45;

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|}

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This list is an example of dangerous characters. Do not be lured into thinking that output encoding via blacklisting is sufficient for XSS protection. The HTMLEntityEncode function at [http://www.owasp.org/index.php/How_to_perform_HTML_entity_encoding_in_Java] is a whitelist HTML Entity Output Encoding mechanism for Java.

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Attacks are usually implemented in JavaScript, which is a powerful scripting language. Using JavaScript allows attackers to manipulate any aspect of the rendered page, including adding new elements (such as adding a login tile which forwards credentials to a hostile site), manipulating any aspect of the internal DOM tree, and deleting or changing the way the page looks and feels. JavaScript allows the use of XmlHttpRequest, which is typically used by sites using AJAX technologies, even if victim site does not use AJAX today.

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Also, it's crucial that you turn off HTTP TRACE support on all webservers. An attacker can steal cookie data via Javascript even when document.cookie is disabled or not supported on the client. This attack is mounted when a user post a malicious script to a forum so when another user clicks the link, an asynchronous HTTP Trace call is triggered which collects the users cookie information from the server, and then sends it over to another malicious server that collects the cookie information so the attacker can mount a session hijack attack. This is easily mitigated by removing support for HTTP TRACE on all webservers.

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Using XmlHttpRequest (AJAX), it is sometimes possible to get around a browser’s same source origination policy - thus forwarding victim data to hostile sites, and to create complex worms and malicious zombies that last as long as the browser stays open. AJAX attacks do not have to be visible or require user interaction to perform dangerous cross site request forgery (CSRF) attacks (see [[CSRF]]).

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The [[:Category:OWASP Filters Project|OWASP Filters project]] is producing reusable components in several languages to help prevent many forms of parameter tampering, including the injection of XSS attacks. In addition, the [[:Category:OWASP WebGoat Project|OWASP WebGoat Project]] training program has lessons on Cross-Site Scripting and data encoding.

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XSS flaws can be difficult to identify and remove from a web application. The best way to find flaws is to perform a security review of the code and search for all places where input from an HTTP request could possibly make its way into the HTML output. Note that a variety of different HTML tags can be used to transmit a malicious JavaScript. Nessus, Nikto, and some other available tools can help scan a website for these flaws, but can only scratch the surface.

Revision as of 11:07, 12 May 2013

Description

Cross site Scripting (XSS) attacks are a type of injection problem, in which malicious scripts are injected into otherwise benign and trusted web sites. Cross site scripting flaws are the most prevalent flaw in web applications today. Cross site scripting attacks occur when an attacker uses a web application to send malicious code, generally in the form of a browser side script, to a different end user. Flaws that allow these attacks to succeed are quite widespread and occur anywhere a web application uses input from a user in the output it generates without validating or encoding it.

Attackers frequently use a variety of methods to encode the malicious portion of the tag, such as using Unicode, so the request is less suspicious looking to the user. There are hundreds of variants of these attacks, including versions that do not even require any < > symbols. For this reason, attempting to “filter out” these scripts is not likely to succeed. Instead we recommend validating input against a rigorous positive specification of what is expected. XSS attacks usually come in the form of embedded JavaScript. However, any embedded active content is a potential source of danger, including: ActiveX (OLE), VBscript, Shockwave, Flash and more.

XSS issues can also be present in the underlying web and application servers as well. Most web and application servers generate simple web pages to display in the case of various errors, such as a 404 ‘page not found’ or a 500 ‘internal server error.’ If these pages reflect back any information from the user’s request, such as the URL they were trying to access, they may be vulnerable to a reflected XSS attack.

The likelihood that a site contains XSS vulnerabilities is extremely high. There are a wide variety of ways to trick web applications into relaying malicious scripts. Developers that attempt to filter out the malicious parts of these requests are very likely to overlook possible attacks or encodings. Finding these flaws is not tremendously difficult for attackers, as all they need is a browser and some time. There are numerous free tools available that help hackers find these flaws as well as carefully craft and inject XSS attacks into a target site.

Environments Affected

All web servers, application servers, and web application environments are susceptible to cross site scripting.

How to Determine If You Are Vulnerable

There are three known types of cross site scripting: reflected, stored, and DOM injection. Reflected XSS is the easiest to exploit – a page will reflect user supplied data directly back to the user:

echo $_REQUEST['userinput'];

Stored XSS takes hostile data, stores it in a file, a database, or other back end system, and then at a later stage, displays the data to the user, unfiltered. This is extremely dangerous in systems such as CMS, blogs, or forums, where a large number of users will see input from other individuals.

With DOM based XSS attacks, the site’s JavaScript code and variables are manipulated rather than HTML elements. Alternatively, attacks can be a blend or hybrid of all three types. The danger with cross site scripting is not the type of attack, but that it is possible.

Attacks are usually implemented in JavaScript, which is a powerful scripting language. Using JavaScript allows attackers to manipulate any aspect of the rendered page, including adding new elements (such as adding a login tile which forwards credentials to a hostile site), manipulating any aspect of the internal DOM tree, and deleting or changing the way the page looks and feels. JavaScript allows the use of XmlHttpRequest, which is typically used by sites using AJAX technologies, even if victim site does not use AJAX today.

Using XmlHttpRequest (AJAX), it is sometimes possible to get around a browser’s same source origination policy - thus forwarding victim data to hostile sites, and to create complex worms and malicious zombies that last as long as the browser stays open. AJAX attacks do not have to be visible or require user interaction to perform dangerous cross site request forgery (CSRF) attacks (see CSRF).

XSS flaws can be difficult to identify and remove from a web application. The best way to find flaws is to perform a security review of the code and search for all places where input from an HTTP request could possibly make its way into the HTML output. Note that a variety of different HTML tags can be used to transmit a malicious JavaScript. Nessus, Nikto, and some other available tools can help scan a website for these flaws, but can only scratch the surface.